A model has been developed to predict and estimate the P-O2 and T-dependent molal solubility, (c(aq))(1), Of oxygen in aqueous solutions containing an inorganic solute, I. It is based on the concept that (c(aq))(1) may be obtained by multiplying the thermodynamics-based P-O2 and T-dependent equation for the molal solubility of oxygen in pure water, c(aq), by a factor (phi-factor) that is < 1 and which is functionally dependent only upon the molal concentration, C-1, of I. The C-1-dependent phi-functions of 21 different I's have been determined from an analysis of published solubility data. Subsequently, the (c(aq))(1)/P-O2 ratios for several solutions, containing single and multiple I, were predicted for a wide range of T by combining the corresponding phi-function with the thermodynamics-based equation for pure water. Tnt: predicted ratios were compared with available published data relating to effects of T. Satisfactory agreement was found between the predicted and experimental behavior, thereby validating the general principles of the model. It is anticipated that the model will be provide a foundation for predicting and estimating oxygen solubility under widely different hydrometallurgy leaching conditions, ranging from bio-leaching processes to oxygen pressure leaching. (C) 1998 Published by Elsevier Science B.V. All rights reserved.
